DE4410865A1 - Control of pump used to circulate hot water to provide heating - Google Patents

Abstract

To control a circulating pump, detectors for flow, flow noise, pressure or temperature are used. The pump is switched off after a certain running period and switched back on again a certain time later. The switching back on is prevented if the fluid temperature is too high.

Description

The invention relates to the control of a circulation pump a timer. The circulation pump circulates in a line, which is connected to a circulation line, or in a loop around a medium, so that this to the Tapping points in the desired condition if required pending.

It relates to the problem that with a Time switch a tight coupling between demand and Operation of the circulation pump is not possible.

For central process water preparation in flow-through water warm up and DHW heating becomes the custom water to the taps (e.g. in bathrooms, kitchens and Toilets) in a thermally insulated service water pipe guided. The domestic water cools in the Pipes off despite good insulation. As a result, the First dispense cold water. To do this avoid building circulation pipes so that the water through different densities or a circulation pump can circulate. The circulation pump is preferred in the Circulation line installed.

It is known that in order to reduce the high heat losses in the hot water pipes an interruption of the circula tion, according to the heating systems regulation, in be low-driving times, e.g. B. during the night, by a controlled circulation pump with timer. It is also known to reduce high heat losses on the circulation line and the circulation pump is omitted, which reduces the length of the lines becomes. The remaining process water pipe is under the insulation with a heating tape, which the Compensates for heat losses (H. Appold and J. Widmann, Technology for central heating and ventilation engineers, publisher Handwerk und Technik GmbH, Hamburg 1988, p. 113).

Both devices incur electricity costs to Compensate for heat losses. When using a time timer for the control of the circulation pump is also added accepted that outside of the operating hours initially cold water is tapped before the desired hot water is available. It doesn't just happen Loss of comfort, but it also becomes water wasted. The heating tape also has the disadvantage indicates that it cannot be installed afterwards.

The invention has for its object a device to create which - with an installation effort that enables retrofitting in existing systems - energy waste (electrical and thermal energy) and Wasted water and at the same time without comfort the hot water is always lost at the tap poses when tapping.

According to the invention the object is achieved in that the Control of the circulation pump with one or more means equipped to receive switching signals from the medium is. The invention is therefore based on the idea that Medium as signal line from the tap to the medium to be used to record switching signals. This will achieved that the control of the circulation pump - without cost playful and subsequently not installable devices - by pressing the tap only when necessary switches.

In a simple manner, the invention can, for. B. with a Flow switch and / or with one or more tempe rature sensors are carried out.

Two embodiments of the invention are based on the attached drawings and functional diagrams explained. Ge use in central water heating systems was chosen for the living area because there is great savings potential for There is energy and water.

It shows:

Fig. 1 The essential elements for the description and an installation situation when using a flow switch.

Fig. 2 functional flow diagram when using a flow monitor.

Fig. 3 The essential elements for the description and an installation situation when using a temperature sensor.

Fig. 4 functional flow diagram when using a temperature sensor.

Explanation of the control according to FIG. 1:
The circulation pump 1 is installed in the circulation line 2 . The flow switch 4 and a tap 5 are installed in the service water line 3 . If the tap 5 is opened, the flow switch 4 registers the flow as a switching signal. The signal of the flow switch 4 sets the time relay 7 in motion via the closed time relay 6 , which closes the contactor 8 and thereby puts the circulation pump 1 into operation for a predetermined time, which is required to fill the service water line 3 with warm water. Closing the contactor 8 triggers the timing relay 6 , which opens for the cooling time of the water in the service water line 3 . This prevents the recirculation pump 1 from being switched on again in the event of a short tap.

The proposed installation of the circulation pump in the Circulation management is not mandatory, but follows it current customs. It is more advantageous Install the circulation pump in the domestic water pipe because then the flow switch can be integrated into the circulation pump can, which eliminates additional assembly work.

. The functional sequence of Figure 2 is as follows:
At time t0, the tap 5 and the timing relay 6 are closed. If the tap 5 is opened at the time t1, the contactor 8 is closed for the duration t2-t1 and the circulating pump 1 goes into operation for the same duration. When the contactor 8 is closed, the time relay 6 is opened for the duration t3-t1, as a result of which the circulation pump 1 is not switched on again during this period when the tap 5 is opened repeatedly. After the time t3-t1, the starting situation is restored. The operating time t2-t1 of the circulation pump depends on the flow rate of the pump and the dimensions of the hot water pipe. Assuming a flow rate of 2 m³ / h and a pipe inside diameter of 2 cm, the pure filling time of the process water pipe is 0.6 sec per meter pipe length. For the selected example, this is to be regarded as the minimum term. In order to also cover the heating of the pipe material, the running time must be extended by a factor of 3. The time t3-t1 until the pump is switched on again is then dependent on the quality of the thermal insulation of the hot water pipe. If the hot water pipe is insulated in accordance with the heating system regulation, the duration t3-t1 for the given example is 30 minutes.

Explanation of the control according to FIG. 3:
The circulating pump 11 is built into the circulation line 12 . The temperature sensor 14 and the tap 15 are installed in the service water line 13 . If the tap 15 is opened, the temperature sensor 14 registers an increased temperature T1 as a switching signal by the hot water flowing in from the water heater. The signal of the temperature sensor 14 sets on the closed relay 16, the timing relay 17 in motion, which closes the contactor 18 and thereby the order circulating pump 11 for a predetermined time, which is required to fill the hot water line 13 with warm water. If the temperature sensor 14 registers a temperature T2, which is higher than T1, as a switching signal, the relay 16 is opened. The relay 16 remains above a temperature T3, which is never less than T2 by a switching difference ΔT and is below the temperature T1, opens ge. This prevents the recirculation pump 11 from being switched on again in short successive Zapfvor gears.

The proposed installation of the circulation pump in the Circulation management is not mandatory, but follows the ge current customs. It is more advantageous Install the circulation pump in the domestic water pipe because then the temperature sensor can be integrated into the circulation pump can, which eliminates additional assembly work.

. The operational sequence shown in Fig 4 is as follows:
At time t0, the tap 15 and the relay 16 are closed. After the tap has been opened, the contactor 18 is closed by the time relay 17 at the time t1, when the temperature T1 is reached, for the duration t3-t1 and the circulation pump 11 goes into operation for the same duration. When temperature T2 <T1 is reached at time t2, relay 16 is opened and remains open until the temperature of the medium has dropped to T3 <T1 at time t4. This prevents the circulation pump 11 from being switched on again when the tap 15 is opened repeatedly, above the temperature T3. If the hot water temperature of 60 ° C prescribed by the heating system regulation is observed, the switching temperatures have the following values:

T1 = 50 ° C, T2 = 55 ° C, T3 = 45 ° C.

Claims (5)

1. Demand control for circulation pump, characterized by one or more means for receiving switching signals from the medium, use of the medium as a signal line and one or more tapping points as switches. 2. Demand control for circulation pump according to claim 1, characterized in that each means of admission of switching signals the flow or the flow noise or pressure, or temperature detected. 3. Demand control according to claim 1 and 2, characterized by means which the circulation pump after a be turn off agreed runtime. 4. Demand control according to claim 3, characterized by Means which the restart for a particular Prevent time. 5. Demand control according to claim 3, characterized by Means which the restarting above one prevent certain temperature of the medium.